RICERCA ITALIANA     

FIRB simili:

• 1 - Sviluppo di microsistemi multisensoriali per applicazioni ambientali e agroalimentari
• 2 - Microtecnologie per la telepresenza immersiva virtuale
• 3 - Sviluppo di microsistemi multifunzionali per analisi in diagnostica clinica e nel settore alimentare
• 4 - Sviluppo di metodiche e approcci endovascolari per la diagnosi e la cura della patologia cerebrovascolare, ed esplorazione di nuove tecniche per l'esecuzione di interventi chirurgici a bassissima invasività con l'ausilio della guida robotica.
• 5 - Sistemi miniaturizzati per elettronica e fotonica
• 6 - Prototipo per nanofabbricazione di chip per elettronica e di dispositivi per optoelettronica basato su microlitografia EUV
• 7 - Nanotecnologie e nanodispositivi per la società dell'informazione
• 8 - Studio di microsistemi multifunzionali per determinazioni chimiche e biochimiche in matrici biologiche complesse
• 9 - VIRTUAL IMMERSIVE COMMUNICATIONS (VICOM)
• 10 - PIATTAFORME ABILITANTI PER GRIGLIE COMPUTAZIONALI A ELEVATE PRESTAZIONI ORIENTATE A ORGANIZZAZIONI VIRTUALI SCALABILI

Classificazione scientifico-disciplinare

• Area scientifico disciplinare: Ingegneria industriale e dell'informazione
  • ELETTRONICA

Classificazione brevettuale

• PERFORMING OPERATIONS; TRANSPORTING
  • SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • OFFENSIVE OR DEFENSIVE ARRANGEMENTS ON VESSELS; MINE-LAYING; MINE-SWEEPING; SUBMARINES; AIRCRAFT CARRIERS (means of attack or defence in general e.g. turrets F41H)
• PHYSICS
  • MEASURING (counting G06M); TESTING
    • MEASUREMENT OF INTENSITY, VELOCITY, SPECTRAL CONTENT, POLARISATION, PHASE OR PULSE CHARACTERISTICS OF INFRA-RED, VISIBLE OR ULTRA-VIOLET LIGHT; COLORIMETRY; RADIATION PYROMETRY (light sources F21, H01J, H01K, H05B; investigating properties of materials by optical means G01N)
    • RADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES [N: (for special applications, see the relevant subclasses, e.g. A61B, G01F, G01N, G02B; measuring dimensions or angles of objects G01B; navigation in general G01C; measuring infrasonic, sonic or ultrasonic vibrations in general G01H; measuring infra-red, visible, or ultra-violet radiation in general G01J; transducers per se, see the relevant subclasses, e.g. G01L, H01L, H04R; measuring direction or velocity of flowing fluids by reception or emission of radiowaves or other waves and based on propagation effects caused in the fluid itself G01P; measuring electric or magnetic variables in general G01R]; (detecting masses or objects by methods not involving reflection or radiation of radio, acoustic or other waves G01V; [N: time-interval measuring G04F]; aerials H01Q) [C9504]

Classificazione geografica

• Regione: Lazio

Bibliografia

LIBS
1) Analysis of environmental lead contamination: comparison of LIBS field and laboratory instruments
Wainner-RT; Harmon-RS; Miziolek-AW; McNesby-KL; French-PD
SPECTROCHIMICA-ACTA-PART-B-ATOMIC-SPECTROSCOPY. JUN 29 2001; 56 (6) : 777-793
2) Laser-induced breakdown spectrometry - applications for production control and quality assurance in the steel industry
Noll-R; Bette-H; Brysch-A; Kraushaar-M; Monch-I; Peter-L; Sturm-V
SPECTROCHIMICA-ACTA-PART-B-ATOMIC-SPECTROSCOPY. JUN 29 2001; 56 (6) : 637-649.
3) Remote material analysis of nuclear power station steam generator tubes by laser-induced breakdown spectroscopy
Whitehouse-AI; Young-J; Botheroyd-IM; Lawson-S; Evans-CP; Wright-J
SPECTROCHIMICA-ACTA-PART-B-ATOMIC-SPECTROSCOPY. JUN 29 2001; 56 (6) : 821-830.

Lidar fluorosensore e LIF
1. Alexander M. Chekalyuk, Frank E. Hoge, Charles W. Wright, Robert N. Swift, James K. Yungel. Airborne test of laser pump-and-probe technique for assessment of phytoplankton photochemical characteristics Photosynthesis Research 66(1/2): 45-56, 2000.
2. Harsdorf S, Janssen M, Reuter R, Toeneboen S, Wachowicz B, Willkomm R. Submarine lidar for seafloor inspection MEASUREMENT SCIENCE & TECHNOLOGY 10: (12) 1178-1184 DEC 1999.
3. C. W. Wright, F. E. Hoge, R. N. Swift, J. K. Yungel, C. R. Schirtzinger. Next generation NASA airborne oceanographic lidar system. Appl. Opt. Vol. 40, n° 3, 336-348 (2001).

Rapid prototyping
1. “Automated Fabrication of Complex Molded Parts Using Mold Shape Deposition Manufacturing” A.G. Cooper 1 , S. Kang 1 , J.W. Kietzman 1 , F.B. Prinz 1 , J.L. Lombardi 2 and L.E. Weiss. Materials and Design, Vol. 20, No. 2/3, 83-89, June 1999.
2. “Rapid Prototyping of Mesoscopic Devices” J¨ urgen Stampfl, Hao-Chih Liu, Seo Woo Nam, Sangkyun Kang and Fritz B. Prinz In: B.Michel (ed.), Proceedings Micromaterials 2000, Berlin, April 2000.
3. "Reconstruction of volume boundary from layers by triangulation" Hirsch, B.E.; Thoben, K.-D.; Sheng, X. and Joppe, M. Journal of Manufacturing - Special Issue on Layered Manufacturing, Volume 16, Number 4, pp. 249-259, Society of Manufacturing Engineers (SME), Dearborn, Michigan, August 1997.

Lidar-dial
1. R. M. Measures, Laser remote sensing (Krieger, Malabar, FL, 1992).
2. E. D. Hinkley, ed., Laser monitoring of the atmosphere (Springer, Heidelberg, Germany, 1976).
3. G. Fiocco and L. D. Smullin, “Detection of scattering layers in the upper atmosphere by optical radar,” Nature 199, 1275-1276 (1963).
4. R. Barbini and A. Palucci, “ENEA ozone DIAL system,” in Instrument Development for Atmospheric Research and Monitoring, J. Bösenberg, D. Brassington and P. C. Simon, eds., (Springer, Heidelberg, Germany, 1997) pp. 62-64.
5. L. Fiorani, B. Calpini, L. Jaquet, H. Van den Bergh and E. Durieux, “Correction scheme for experimental biases in differential absorption lidar tropospheric ozone measurements based on the analysis of shot per shot data samples,” Appl. Opt. 36, 6857-6863 (1997).

Laser a Quantum Cascade
1. G. Scamarcio, F. Capasso, J. Faist, C. Sirtori, D. L. Sivco, A. L. Hutchinson, and A. Y. Cho TUNABLE INTERMINIBAND INFRARED EMISSION IN SUPERLATTICE ELECTRON TRANSPORT Appl. Phys. Lett. 70, 1795-1797 (1997)
2. G. Scamarcio, F. Capasso, A. L. Hutchinson, D. L. Sivco, and A. Y. Cho MIDINFRARED EMISSION FROM COUPLED WANNIER-STARK LADDERS IN SEMICONDUCTOR SUPERLATTICES Phys. Rev. B57, Rapid Communications, R6811-R6814 (1998).
3. V. Spagnolo, M. Troccoli, G. Scamarcio, C. Becker, G. Glastre, and C. Sirtori THERMAL RESISTANCE AND TEMPERATURE CHARACTERISTICS OF GaAs/Al0.33Ga0.67As QUANTUM- CASCADE LASERS Appl. Phys. Lett. 78, 1177-1179 (2001).
4. V. Spagnolo, M. Troccoli, G. Scamarcio, C. Gmachl, A. Tredicucci, F. Capasso, A. L. Hutchinson, D. L. Sivco, and A. Y. Cho TEMPERATURE PROFILE OF GaInAs/AlInAs/InP QUANTUM CASCADE LASER FACETS MEASURED BY MICRO-PROBE PHOTOLUMINESCENCE Appl. Phys. Lett., 78, 2095-2097 (2001)

Sensori ottici
1 J. Wang, M. Maiorov, J.B. Jeffries, D.Z. Garbuzov, J.C. Connolly, R.K. Hanson Meas. Sci. Technol. 2000, 11, 1576. [diodi laser]
2 A. Lucchesini, S. Gozzini “Diode Laser overtone spectroscopy of atmospheric trace gases”
Recent Res. Devel. Applied Phys. 4 (2001): 49-62 ISBN: 81-7895-005-7 [diodi laser]
3 G. Annino, D. Bertolini, M. Cassettari, M. Fittipaldi, I. Longo, and M. Martinelli, "Dielectric properties of materials using whispering gallery dielectric resonators: Experiments and perspectives of ultra-wideband characterization" J. Chem.Phys. 112, 2308-2314, (2000).[whispering gallery]
4 L. Lehr, R. Weinkauf, E.W. Schlag Int. J. Mass Spectrom. 2001, 206(3), 191.
5 H.J.Heger, R.Zimmermann, R. Dorfner, M. Beckmann, H. Griebel, A. Kettrup, U. Boesl Anal. Chem. 1999, 71, 46.
6 P. Karlitschek, F. Lewitza, U. Buenting, M. Niederkrueger, G. Marowsky Appl. Phys. B 1998, B67, 497.
7. A. O’Keefe and D.A.G. Deacon, “ Cavity ring-down optical spectromiter for absorption measurements using pulsed laser source” Rev. Sci. Instrum. 59 (1988) 2544.
8. M.D. Wheeler, S. M. Newman, A. J. Orr-Ewing and M.N.R. Ashfold, “ Cavity ring-down spectroscopy”, J. Chem. Soc. Faraday Trans., 94 (1998), 3771.
9. D.B. Atkinson and J. W Hudgens, “ Chlorination Chemistry1. rate coefficients, reaction mechanism and spectra of chlorinate and bromine adduct of propargyl halides”, J. Phys. Chem. A103 ( 1999) 7978.

Sensori Chimici
[2b] G. Heiland, D. Kohl, Physical and Chemical Aspects of Oxidic Semiconductor Gas Sensors, in T. Seiyama (Ed.), Chemical Sensor Technology, Vol. 1, Kodansha, Tokyo/Elsevier, Amsterdam, 1988, pp. 15-38.
[4b] N. Yamazoe, Sensors & Actuators B 5 (1991) 7-19.
[5b] W. Gopel, Future Trends in the Developments of Gas Sensors, in G. Sberveglieri (Ed.), Gas Sensors, Kluwer, Dordrecht, 1992, Ch.11, pp. 365-410.
[6b] S. Vaihinger, W. Gopel, Multi-component analysis in chemical sensing, in W. Gopel, J. Zemel and J. Hesse (Eds.), Sensors, Vol. 2 part 1, VCH, Weinheim ,1991, Ch. 6, pp. 191-237.
[4] A. Watanabe, Y. Imai, Thin Solid Films 348, 63 (1999)

Raman miniaturizzato
[1] J.B. Cooper, P.E. Flecher, T.M. Vess and W.T. Welch, Appl. Spectrosc. 49 (1995) 586.
[2] N. Gupta and R. Dahmani, Spectrochimica Acta A, 56 (2000)1453.
[3] S. Christesen, B. MacIver, b. Procell, D. Sorrik, B. Carraba and J. Bello, Appl Spectrosc. 53 (1999) 850.
[4] I. V. Ermakov, R. W. McClane and W. Gellermann, Optics Letters 26 (2001) 202.
[5] D.L. Dckendheets, D.D. Wynn-Williams, H.G.M. Edwards, C. Schoen, C. Crowder and E.M. Newton, J. Raman Spectrosc. 31 (2000) 633.

Sistemi Multisensoriali Distribuiti
1. “Sensitive Skin” - Vladimir J. Lumelsky, Fellow, IEEE, Michael S. Shur, Fellow, IEEE, and Sigurd Wagner, Fellow, IEEE - IEEE SENSORS JOURNAL, VOL. 1, NO. 1, JUNE 2001
2. “A Tactile Array Sensor Layered in an Artificial Skin” - R. Lazzarini, R. Magni, and P. Dario IROS Conference abstract 1995
3. “Novel processing technology for macroelectronics”, S. Wagner, H. Gleskova, J. C. Sturm, and Z. Suo, in Materials Research Society Spring 2000 Symposium on Materials Development for Direct Write Technologies, R. A. Street, Ed. Berlin, Germany: Springer, 2000, Technology and Applications of Hydrogenated Amorphous Silicon, pp. 222–251.
4. “Flexible semiconductor films for sensitive skin” IROS2000 - J. Sinius, R. Gaska, and M. S. Shur Kagawa Univ., Takamatsu, Japan, (see http://iros2000.iis.u-tokyo.ac.jp/), Oct. 30-Nov. 5 2000.
5. “Stacked pentacene layer organic thin-film transistors with improved characteristics” - Y. Y. Lin, D. J. Gundlach, S. F. Nelson, and T. N. Jackson - IEEE Electron Device Lett., vol. 18, pp. 87–89, Mar. 1997.
6. “Amorphous silicon thin-film transistors on compliant polyimide foil substrates” - H. Gleskova and S. Wagner, IEEE Electron Device Lett., vol. 20, pp. 473–475, 1999.

Parole Chiave

microsensori; microlaser; microottiche; ambiente estremo; ambiente ostile; diagnostiche di processo e mediche